CN216617924U - Energy-saving high-power desalination water station - Google Patents

Abstract

The utility model discloses an energy-saving high-power desalted water station, which comprises a base, wherein a main water pump device and a standby water pump device are arranged on the base, inlet gate valves are arranged at the front ends of the main water pump device and the standby water pump device, the rear ends of the inlet gate valves are connected with a Y-shaped precision filter, and the front ends of the inlet gate valves are connected to a water tank through pipelines; the main water pump device and the standby water pump device are respectively connected with a water outlet pipe and an overflow recovery pipe, the rear end of the water outlet pipe is connected with two water pipes, one water pipe is connected to the two platen filters, the other water pipe is connected with a main water supply pipe, and the main water supply pipe is respectively connected with a cylinder water pipe, a high-temperature pump water pipe and a filler water pipe. The utility model has the characteristics of compact structure, good energy-saving effect, low operation cost, convenient installation and use and the like, and can be widely applied to the technical field of main machine forced lubrication and cooling circulation regeneration water supply devices.

Description

Energy-saving high-power desalination water station

Technical Field

The utility model belongs to the technical field of water stations, and particularly relates to an energy-saving high-power desalted water station.

Background

The water station is a cooling and cleaning device widely used for large machines such as turbine compressors, steam turbines and the like, and belongs to a circulating regeneration water supply device for softened water for cooling a main engine strong cylinder and a filler. The existing water station provides continuous, stable and constant-temperature lubricating and control media for the existing water station based on the special requirements of high rotating speed, variable load and the like of compressor operation, so that the existing water station is lubricated and cooled reasonably, the service life of a bearing is prolonged, the maintenance cost of the compressor is reduced, and the main engine is ensured to operate stably for a long time.

The desalted water station is an important branch of the water station, and the principle of the desalted water station is to provide circularly cooled desalted water for cooling and cleaning large machines such as turbo compressors, steam turbines and the like, and the desalted water station has better cooling and cleaning effects and cannot pollute pipelines and corrode related parts. At present, the desalination water station adopts an integral structure, the water tank and the water supply device are integrated into a whole and are positioned on the base, and the desalination water station has a complex structure and large working energy consumption, and is not beneficial to further popularization and application of the desalination water station.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the background art, the utility model provides an energy-saving high-power desalted water station which has the characteristics of compact structure, good energy-saving effect, low operation cost, convenient installation and use and the like and can be widely used in the technical field of main machine forced lubrication and cooling circulation regeneration water supply devices.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an energy-saving high-power desalted water station comprises a base, wherein a main water pump device and a standby water pump device are arranged on the base, inlet gate valves are arranged at the front ends of the main water pump device and the standby water pump device, the rear ends of the inlet gate valves are connected with a Y-shaped precision filter, and the front ends of the inlet gate valves are connected to a water tank through pipelines; the main water pump device and the standby water pump device are respectively connected with a water outlet pipe and an overflow recovery pipe, the rear end of the water outlet pipe is connected with two water pipes, one water pipe is connected to the two platen coolers, and the other water pipe is connected with a main water supply pipe; the upper end and the lower end of the plate cooler are respectively provided with a cooling water outlet and a cooling water inlet, the main water supply pipe is respectively connected with a gas cylinder water pipe, a high-temperature pump water pipe and a filler water pipe, and the gas cylinder water pipe, the high-temperature pump water pipe and the filler water pipe are respectively provided with an independent flow control valve.

As an improvement of the utility model, the main water pump device and the standby water pump device are arranged side by side and respectively comprise an energy-saving motor and an energy-saving water pump.

As an improvement of the utility model, the water tank is of a square structure, the front surface of the water tank is provided with a manhole, and the side surface of the water tank is provided with a plurality of groups of electric heaters.

As an improvement of the utility model, the water tank is arranged on a high support or a second floor and is 4-6m higher than the base.

As an improvement of the utility model, the water outlet pipe is of an L-shaped structure and is formed by welding a plurality of pipelines.

As an improvement of the utility model, the plate cooler pipeline is provided with two flow control valves which are symmetrically distributed.

As an improvement of the utility model, a temperature control valve is arranged on the main water supply pipe.

As an improvement of the utility model, the bottom of the base is provided with six foundation bolts which are distributed at equal intervals.

As an improvement of the utility model, the filtration precision of the Y-type precision filter is less than or equal to 125 mu m.

As an improvement of the utility model, the water tank is of a closed structure and is formed by welding steel plates, and an aluminum oxide ceramic plate is embedded inside the water tank.

The beneficial effects of the utility model are: an energy-saving high-power desalted water station has the characteristics of compact structure, good energy-saving effect, low operation cost, convenient installation and use and the like; by adopting the main water pump device and the standby water pump device which are arranged side by side, the two water pump devices are mutually standby, when the main water pump breaks down and the water pressure at an outlet is reduced to a set pressure, the instrument electric control system automatically starts the auxiliary water pump to be put into operation, and the main water pump is stopped at the same time for maintenance; by arranging the two platen coolers, the cooling efficiency of desalted water is improved, so that the water station obtains higher operating power; the base and the water tank are arranged in a split manner, so that the transportation and installation of the whole set of water station are facilitated, and meanwhile, the water tank is arranged 4-6m higher than the ground, so that the energy is effectively saved and the running cost of the water pump is reduced by utilizing the fall potential energy; in addition, the aluminum oxide ceramic chip is embedded in the water tank, so that the pollution of the metal tank body to desalted water is avoided, the replacement frequency of the desalted water is effectively reduced, and meanwhile, the service life of the tank body is longer.

Drawings

FIG. 1 is a front view of an energy efficient high power desalinated water station of the present invention;

FIG. 2 is a side view of the energy efficient high power desalinated water station of the present invention;

FIG. 3 is a top view of the energy efficient high power desalinated water station of the present invention.

In the figure: 1. a base; 2. a main water pump device; 3. a standby water pump device; 4. an inlet gate valve; 5. a Y-type precision filter; 6. a water tank; 7. a water outlet pipe; 8. an overflow recovery pipe; 9. a main water supply pipe; 10. a plate cooler; 11. a cooling water outlet; 12. a cooling water inlet; 13. a water pipe for the cylinder; 14. a high-temperature pump water pipe; 15. a filler supply pipe; 16. a flow control valve; 17. a temperature control valve; 18. anchor bolts; 31. an energy-saving motor; 32. an energy-saving water pump; 61. a manhole; 62. an electric heater.

Detailed Description

The technical scheme of the utility model is further described in detail by the following specific embodiments and the accompanying drawings: as shown in fig. 1 to 3, the energy-saving high-power desalted water station comprises a base 1, wherein a main water pump device 2 and a standby water pump device 3 are arranged on the base 1, inlet gate valves 4 are arranged at the front ends of the main water pump device 2 and the standby water pump device 3, the rear ends of the inlet gate valves 4 are connected with a Y-type precision filter 5, and the front ends of the inlet gate valves 4 are connected to a water tank 6 through pipelines; the main water pump device 2 and the standby water pump device 3 are respectively connected with a water outlet pipe 7 and an overflow recovery pipe 8, the rear end of the water outlet pipe 7 is connected with two water pipes, one water pipe is connected with the two platen coolers 10, and the other water pipe is connected with a main water supply pipe 9; the upper end and the lower end of the plate cooler 10 are respectively provided with a cooling water outlet 11 and a cooling water inlet 12, the main water supply pipe 9 is respectively connected with a gas cylinder water pipe 13, a high-temperature pump water pipe 14 and a filler water pipe 15, and the gas cylinder water pipe 13, the high-temperature pump water pipe 14 and the filler water pipe 15 are respectively provided with an independent flow control valve 16.

Further, main pumping plant 2 and reserve pumping plant 3 set up side by side, and all include energy-conserving motor 31 and energy-conserving suction pump 32, specifically, main pumping plant 2 and reserve pumping plant 3 are each other for reserve, and one breaks down, and one can open immediately for reserve, avoids hindering machine equipment normal operating, and the pumping plant that breaks down closes the machine maintenance of intaking through the stop valve.

Further, the water tank 6 is of a square structure, the front surface of the water tank is provided with a manhole 61, and the side surface of the water tank is provided with a plurality of groups of electric heaters 62; specifically, the water tank 6 is arranged on a high support or a second floor and is 4-6m higher than the base, preferably 5-6 m; more specifically, water tank 6 is closed structure, adopts the steel sheet welding to form, and inside inlays and has the aluminium oxide potsherd to avoid the metal box to corrode to drop and cause the pollution to the cooling demineralized water, prolong the demineralized water life cycle.

Further, the water outlet pipe 7 is of an L-shaped structure and is formed by welding a plurality of pipelines.

Furthermore, the pipeline of the plate cooler 10 is provided with two flow control valves 16 which are symmetrically distributed, so that the flow of cooling water can be conveniently controlled.

Further, a temperature control valve 17 is arranged on the main water supply pipe 13.

Furthermore, foundation bolts 18 are arranged at the bottom of the base 1, and the foundation bolts 18 are distributed at equal intervals and are totally six; further, the anchor bolts 18 are of a U-shaped configuration.

Furthermore, the filtering precision of the Y-type precision filter 5 is less than or equal to 125 μm, the filtering pressure limit value is set to be 1.6MPa, and the filtering flow is more than or equal to 80L/min.

Finally, it should be noted that the above-mentioned list is only a specific embodiment of the present invention. It is obvious that the present invention is not limited to the above embodiments, but many variations are possible. All modifications which can be derived or suggested by a person skilled in the art from the disclosure of the present invention are to be considered within the scope of the utility model.

Claims (10)

1. An energy-saving high-power desalted water station comprises a base (1) and is characterized in that a main water pump device (2) and a standby water pump device (3) are arranged on the base (1), inlet gate valves (4) are arranged at the front ends of the main water pump device (2) and the standby water pump device (3), the rear ends of the inlet gate valves (4) are connected with a Y-shaped precision filter (5), and the front ends of the inlet gate valves (4) are connected to a water tank (6) through pipelines; the main water pump device (2) and the standby water pump device (3) are respectively connected with a water outlet pipe (7) and an overflow recovery pipe (8), the rear end of the water outlet pipe (7) is connected with two water pipes, one water pipe is connected with the two platen coolers (10), and the other water pipe is connected with a main water supply pipe (9); the plate cooler is characterized in that the upper end and the lower end of the plate cooler (10) are respectively provided with a cooling water outlet (11) and a cooling water inlet (12), the main water supply pipe (9) is respectively connected with a gas supply cylinder water pipe (13), a high-temperature pump water pipe (14) and a filler water pipe (15), and the gas supply cylinder water pipe (13), the high-temperature pump water pipe (14) and the filler water pipe (15) are respectively provided with an independent flow control valve (16).

2. The energy-saving high-power desalted water station according to claim 1, wherein said main water pump device (2) and said backup water pump device (3) are arranged side by side and each comprise an energy-saving motor (31) and an energy-saving water pump (32).

3. The energy-saving high-power desalted water station according to claim 1, wherein said water tank (6) is of a square structure with a manhole (61) on the front and multiple groups of electric heaters (62) on the side.

4. The energy-saving high-power desalted water station according to claim 3, wherein said water tank (6) is mounted on a high support or a second floor and is 4-6m higher than said base (1).

5. The energy-saving high-power desalted water station according to claim 1, wherein said water outlet pipe (7) is L-shaped and is welded by multiple pipes.

6. Energy-saving high-power desalinated water station according to claim 1, characterized in that the tube of the plate cooler (10) is provided with two flow control valves (16) distributed symmetrically.

7. The energy-saving high-power desalted water station according to claim 1, wherein a thermo valve (17) is provided on said main water supply pipe (9).

8. The energy-saving high-power desalted water station according to claim 1, wherein foundation bolts (18) are arranged at the bottom of said base (1), said foundation bolts (18) are distributed at equal intervals, and there are six in total.

9. The energy-saving high-power desalted water station according to claim 1, wherein the filtration precision of said Y-type precise filter (5) is less than or equal to 125 μm.

10. The energy-saving high-power desalted water station according to claim 1, 3 or 4, wherein said water tank (6) is a closed structure, welded by steel plates, and embedded with alumina ceramic plates.

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